Hemolytic versus malproductive anemia in large granular lymphocytic leukemia

a chronic clonal proliferation of either cytotoxic T-(CTLs) or natural killer (NK) cells (T-or NK-LGLL)


TO THE EDITOR:
Large granular lymphocytic leukemia (LGLL) can be defined as a chronic clonal proliferation of either cytotoxic T-(CTLs) or natural killer (NK) cells (T-or NK-LGLL) [1].In a typical clinical situation, the disease affects elderly patients, who may present with neutropenia (39-62%) and/or anemia (up to 50%) [1], but also with a variety of autoimmune diseases [2].Particularly, while commonly anemia in the context of LGLL is malproductive and reticulocytopenic resembling pure red cell aplasia (PRCA) [3,4], we have also occasionally encountered cases with increased/preserved reticulocyte counts.A clinical workup done on these patients revealed either immune hemolytic anemia (IHA), hypersplenism or both.Thus, the pathophysiologic underpinnings of anemia in LGLL can be diverse.Because clinical distinction has therapeutic consequences and may provide clues to the pathogenesis of LGLL, we sought to investigate the features of hemolytic versus reticulocytopenic anemia by conducting a comprehensive and systematic study of hemolysis occurring in the context of a large cohort of patients affected by this disease.
We analyzed clinical and molecular features of 262 patients diagnosed (median follow up: 84 months) at The Cleveland Clinic Foundation (CCF) from 1998 to 2022 to identify those experiencing hemolysis.
LGLL diagnosis was based on the presence of ≥4/6 criteria: i) chronically elevated LGL count (>0.5 × 10 9 /dL over >3 months), ii) clonal TCR rearrangement, iii) VB expansion, iv) flow cytometric detection of aberrant CTL or NK-cell proliferation, v) STAT3/5 mutation and vi) LGL infiltration of the marrow [5].IHA diagnosis was based on the evidence (at any time during clinical course) of signs of hemolysis namely reticulocytosis (>2% and/or >60 ×10 3 /uL), elevated LDH levels, and low haptoglobin.Conversely, anemia characterized by a reticulocyte index (RI) of <2 without evidence of hemolysis was classified as malproductive/hyporegenerative.Hemoglobin (Hb) response criteria including complete response (CR) and partial response (PR) were determined using consensus definitions [6].Transfusion dependence was defined as requirement of ≥2 units of red blood cell (RBC) every 2 weeks for at least 3 months due to Hb <7 or symptomatic anemia.Fisher's exact test was used to determine statistical significance at p < 0.05.
A significant portion of LGL patients presents with anemia and low reticulocyte counts indicating immune-mediated erythropoiesis inhibition by LGLL, akin to mechanisms in disease-associated neutropenia, which may coincide with other autoimmune phenomena [1,7,8] Although LGLL associated anemia is often accompanied by other cytopenias, previous reports have described isolated anemia in context of LGLL [3,9].The classification of LGLL-associated anemia according to bone marrow compensation capacity (indicated by reticulocyte counts), whether hemolytic or reticulocytopenic, holds clinical significance.Our study has uncovered a significant correlation between IHA and LGLL, indicating that this association is more common than previously thought [10].However, there may be instances of overlap between these forms of LGLL-associated anemia, making it challenging to determine the predominant mechanism.Indeed, pure IHA with sufficient bone marrow response was observed in 13/32 (41%) IHA/LGLL patients, while others exhibited inadequate reticulocyte compensation, indicating possible coexisting bone marrow/erythroid suppression.Overall IHA LGLL often presented as an isolated anemia.
This study underscores the common occurrence of monoclonal gammopathy in patients with LGLL [2,11], along with splenomegaly and polyclonal hypergammaglobulinemia, particularly in cases involving IHA.The correlation between hypergammaglobulinemia and the severity of anemia suggests a humoral mechanism contributing to IHA and may also be responsible for the destruction of erythroid precursors in the maladaptive component of the disease.At this point it can only be stipulated whether a stronger association of IHA with NK-LGLL indicates the pathophysiologic role of Fc receptor, which is more abundantly expressed in NK-cells than in CTLs and its involvement in antibody-dependent cell-mediated cytotoxicity reactions in vivo [12,13].No enrichment in STAT3 mutations was observed in IHA LGLL.Two patients with LGL IHA received Tofacitinib, an indirect STAT pathway inhibitor, but showed no improvement in either hemolysis or anemia, consistent with other studies [14].
It is conceivable that IHA shares a pathophysiological link with LGLL, but the processes progress independently.Resolution of hemolysis was achieved with classical IHA treatments such as prednisone, IVIG and rituximab, resulting in a reduction in transfusion burden for responders.However, our observations also suggest that cytopenias (e.g., anemia) with LGLL-associated hemolysis may require T/(NK)-cell directed drugs to establish a more complete or more lasting response.
Study limitations stem from the retrospective nature of our investigation and the limited number of patients within treatment subgroups.Despite these constraints, our findings underscore the therapeutic implications of differentially diagnosing LGLLassociated anemia (Supplementary Fig. S2).T-cell directed IST may be more suitable for malproductive anemia of LGLL, while classic anti-hemolytic therapies, including splenectomy for refractory cases [15], could be considered for LGLL with hemolysis.However, it is important to note that anemia even in the latter cases is likely multifactorial and consequently successful therapy of LGLL would be needed to prevent relapse and recurrence of cytopenias.

Fig. 1 Fig. 2
Fig. 1 Categorization of anemia associated with large granular lymphocytic leukemia.Left panel: Indication of the number of patients in the study cohort.Right Panel: Number of patients with malproductive versus hemolytic anemia.